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Tuesday, July 26, 2011

Zero Liquid Discharge Wastewater Solution




Zero Liquid Dischargehttp://www.evaporator.com/index.php?page=zero-liquid-discharge

Zero Liquid Discharge Wastewater Solution
Zero Liquid Discharge (ZLD) describes a process that completely eliminates liquid discharge from a system. The goal of any well-designed ZLD system is to minimize the volume of wastewater that requires treatment, process wastewater in an economically feasible manner, while also producing a clean stream suitable for reuse elsewhere in the facility. Interest in ZLD technology has grown in the industrial manufacturing sector over the past decade. Companies may begin to explore ZLD because of ever tightening wastewater disposal regulations, company mandated green initiatives, public perception of industrial impact on the environment, or concern over the quality and quantity of the water supply.
The equipment needed to achieve ZLD varies depending on the characteristics of the wastewater as well as the wastewater volume. Typical waste streams in an industrial setting include wastewater treatment reject typically from reverse osmosis (RO) or ion exchange, cooling tower blow down, spent coolants, DI regenerant, metal finishing wastewaters, tank or equipment washing wastewaters, and other miscellaneous industrial wastewaters such as compressor condensate and floor scrubber wash waters. The first step to achieving ZLD is to look for ways to limit the amount of wastewater that needs to be treated. Reducing the amount of wastewater almost always provides quick payback. For example, pre treating the water going to a cooling tower to reduce hardness and silica can increase the amount of time the water can be used before it becomes spent.
Once wastewater generation is minimized and the volume of wastewater that needs to be treated is known, you can then explore what equipment is needed. A traditional approach to ZLD is to use some sort of filtration technology, funnel the reject waters to an evaporator, and send the evaporator concentrate to a crystallizer or spray dryer. The downside to this is that the equipment to dewater the concentrate slurry tends to be very large and can be extremely expensive, which limits the cost effectiveness to only those with very large waste streams. The ENCON approach is unique because it uses cost effective, time-tested equipment that make it ZLD economically feasible for even moderately sized waste streams.
At the core of the ENCON ZLD solution is evaporation technology. Evaporation always figures prominently in most ZLD solutions because it has always been more "hands off" than other wastewater treatment methodologies resulting in a dramatically lower labor cost. Evaporation technology can handle a much wider range of waste streams compared to membranes and traditional physical / chemical treatment methodologies. Finally, evaporation does a much better job of concentrating waste streams compared to other methods, thereby yielding a lower cost for disposal.
Two types of evaporation technology are used in the ENCON ZLD solution. First, at a typical operating cost $0.01 - $0.02 per gallon of distillate, the ENCON Mechanical Vapor Compression (MVC) Evaporator is also very energy efficient and yields a high quality distillate. Models are available that can process 40 to 4,000 gallons of distillate per hour. More information on the ENCON MVC evaporator can be found here in our Mechanical Vapor Compression section. Second, the ENCON Thermal Evaporator can be used with a variety of heat sources, such as natural gas, propane, #2 fuel oil, waste oil, steam, and electricity. Capacities range from 8 to 400 gallons per hour. More information on ENCON Thermal Evaporators can be found here in our thermal evaporator system section.
Please refer to the flow chart diagram to the right for a typical layout for ENCON's ZLD solution. Wastewater is fed to the ENCON MVC Evaporator followed by dewatering of the MVC concentrate by an ENCON Thermal Evaporator and a plate & frame filter press.
In the first stage, an MVC Evaporator is fed the wastewater and it yields distilled water and concentrate. The concentrate goes to a concentrate storage tank, which separates into slurry and supernatant layers. The supernatant layer gets pumped to an ENCON Thermal Evaporator, which further concentrates the liquid while exhausting water vapor to atmosphere. The concentrated slurry from the thermal evaporator is pumped back into the concentrate storage tank. The slurry layer from the tank is pumped into a thickener tank that is then pumped into a filter press. The filter press solids are dumped into a sludge disposal trough with filtrate going back to the concentrate tank.
A key feature of the ENCON approach to Zero Liquid Discharge is that it is can be implemented in stages over time. For example, a company may choose to install an ENCON MVC Evaporator to minimize their wastewater hauling expenses. A year or so later, they find that feeding a ENCON Thermal Evaporator from the MVC's concentrate holding tank to further reduce the volume of liquid waste makes financial and environmental sense. When the company finally decides to become a Zero Liquid Discharge facility, it is a simple matter of adding a filter press and accessories to the current wastewater process.

Monday, July 25, 2011

BHOOT JOLOKIYA

LONDON: The hottest Indian chilli 'Bhut Jolokia' will be available
across Britain this week, giving buyers a taste of hottest pepper in
the world.

Tesco says they are stocking the fiery food because of Britain's
current love affair with spicy stuff and hot chilli peppers in
general.

The Bhut Jolokia is an interspecific hybrid from the Assam region of
northeastern India and parts of neighbouring Bangladesh. It grows in
the Indian states of Assam, Nagaland and Manipur.

Bhut Jolokia scores a fearsome 1,001,304 points on the Scoville scale
that measures peppers' heat. The average jalapeno comes in at about
10,000.

"All I can say is that it is not for the faint-hearted or anyone with
a respiratory condition. It is an incredible sensation as the heat
continues to build for a good 30 second" a buyer was quoted, as saying
by The Daily Mail.

This extreme spice is used by the Indian security agencies to disperse
mobs and protesters.

The Bhut Jolokia as well as most of Tesco's other chillis are grown in
Blunham, Bedfordshire, by the UK's largest chilli grower, Salvatore
Genovese, who produces an incredible 150,000 chillis each day. (ANI)
--
http://www.saleemindia.blogspot.com

Tuesday, July 19, 2011

Biogas from Waste Landfill Site to Power Brazilian Refinery - Waste Management World


 
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Biogas from Waste Landfill Site to Power Brazilian Refinery - Waste Management World

From Newport Beach, California based energy company, FirmGreen, Inc. has made the first international shipment of its biogas cleaning equipment to the Novo Gramacho Landfill near Rio de Janeiro, Brazil.


The Novo Gramacho landfill where the project is located has also been depicted in a documentary nominated for a 2011 Academy Awards - Waste Land.
In 2010, FirmGreen negotiated an agreement with Brazil's G?s Verde, S.A., which is the project developer and the plant's owner-operator, to turn Waste Land's 'dirty gas,' a natural by-product of decomposing waste, into clean usable gas using the company's proprietary technology.
The company claims that the resulting biogas is an environmental-friendly, highly useful fuel with the energy equivalent of natural gas.
Petrobras, the largest company in Latin America by market capitalisation and revenue, will use the biogas to generate over 10% of the thermal energy needed to run its Duque de Caxias Refinery.
The company claims that using the U.S. government's EPA LMOP calculator the Novo Gramacho Anaerobic Digestion Plant will reduce greenhouse gas emissions by 1.4 million metric toness, annually..
To fabricate the specialised gas cleaning equipment required for the project, FirmGreen contracted with Dublin, Ohio based Guild Associates. Guild employees are also helping start-up Gs Verde's Biogas Plant. Brazilian contractors are manufacturing some of the project's components and will take a lead role in the plant's installation.
FirmGreen's CEO, Steve Wilburn, commented, "Our world continues to face significant economic challenges, yet this project demonstrates how bi-cultural teamwork can generate hundreds of jobs, in this case throughout six U.S. states-Indiana, Wisconsin, Ohio, California, Michigan, and Texas-as well as Brazil."

The Novo Gramacho Biogas project is slated to begin commercial operations later this year.
 

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£10 million Anaerobic Digestion Loan Fund (ADLF) Announced in UK

Cautious response to £10m AD fund
By Steve Eminton (7 July 2011)

Recycling minister Lord Henley today confirmed details of a £10 million Anaerobic Digestion Loan Fund (ADLF) for new AD plants in a speech to the conference at UK AD & Biogas 2011, being held in Birmingham.
(Picture, courtesy: Biogen Greenfinch)

But, the announcement met with a strong response from the Anaerobic Digestion and Biogas Association which accused ministers of failing to direct councils in the direction of AD.

The Fund will be administered by WRAP - the Waste & Resources Action Programme - and will lend amounts ranging from £50,000 to £1 million to support the development of new AD capacity in England in conjunction with investment from the private sector. It aims to support 300,000 tonnes of annual capacity to divert food waste from landfill by 2015.

Delegates to the conference and exhibition, which is organised by the Anaerobic Digestion and Biogas Association (ADBA), were broadly positive about the funds. But, some had reservations, especially in terms of finance and local authority commitment.

In his opening speech on Wednesday (July 6) to the conference, Lord Redesdale, chairman of ADBA, had highlighted the importance of securing feedstock.

Responding today to Lord Henley's announcement, ADBA chief executive Charlotte Morton said: "This fund is welcome news for the industry, and will support projects which will make a real difference in starting to build up the UK's anaerobic digestion capacity.
Barrier

"However, it represents only a small part of the investment which is needed to take AD to the point where it is really delivering for the UK's strategic objectives – and raising finance remains the biggest barrier for projects.

"Meeting the UK's 2020 commitments on landfill diversion and renewable energy require high investment in new capacity over the next few years. That simply isn't happening while investors are being put off by mixed messages from government, and while they remain unwilling to direct local authorities to take a course they have already said realises the most benefit.

She added: "The Government needs to build on this announcement by grasping the nettle to encourage wider private finance into the market. This doesn't require more money from the taxpayer – simply clear statements that organic waste feedstock should be source segregated and prioritised for AD."
Viability

Two delegates from the financial sector told letsrecycle.com that, despite the grant, there would still be concerns about the viability of AD plants taking in waste from the household stream.

One said: "Projects dealing with farm waste and commercial waste have a more secure feedstock. There are a lot of uncertainties in dealing with waste and even more when comparisons are made to investing in other renewable energy projects, such as wind power."

Another added: "Some people in the AD sector seem to expect banks just to jump in and take a risk which we just can't do."

And, delegates to the conference also heard a warning from a top local government officer  about the uncertainties that currently exist among local authorities.

Read the full story at the Let's Recycle website.
 

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